Generating digital content overlays in relation to real-world objects via a display case with a multi-layered transmissive display

1. A display case for presenting computer-generated digital content overlaid on a view of tangible objects within the display case by way of a multi-layered transmissive display, the display case comprising: a display housing comprising an open face and an internal cavity within the display housing; a display screen fixably attached to the display housing to cover the open face, wherein the display screen alternates, based on a display rate, between an emissive state where the display screen filters light waves emitted from a diffuser direct light source to display an emitted light image and an attenuating state where the display screen filters light waves from the internal cavity to display a transparency mask image; and a diffuser element secured within the display housing, affixed to the display screen, and located directly adjacent to the internal cavity, wherein the diffuser element diffuses light and alternates between a transparent state and a scatter state based on the display rate such that a digital overlay is superimposed on a view of the internal cavity; and wherein the diffuser element and the display screen are configured such that: at a first point in time the display screen is in the emissive state and the diffuser element is in the scatter state; and at a second point in time the display screen is in the attenuating state and the diffuser element is in the transparent state.

2. The display case of claim 1 , wherein the diffuser direct light source is aligned to project light in a direction from inside the display case toward the diffuser element and alternates, based on the display rate, between an on state wherein the diffuser direct light source illuminates the diffuser element and an off state wherein the diffuser direct light source is inactive.

3. The display case of claim 2 , wherein: at the first point in time the diffuser direct light source is in the on state; and at the second point in time the diffuser direct light source is in the off state.

4. The display case of claim 3 , further comprising an ambient light source aligned to project light within the internal cavity and that alternates, based on the display rate, between a second on state wherein the ambient light source illuminates the display screen and a second off state wherein the ambient light source is inactive, wherein: at the first point in time the ambient light source is in the second off state; and at the second point in time the ambient light source is in the second on state.

5. The display case of claim 4 , wherein the ambient light source is located inside the internal cavity within the display housing affixed to a wall of the display housing adjacent to the internal cavity.

6. The display case of claim 2 , wherein: the diffuser element is affixed behind the display screen in a direction toward the internal cavity within the display housing; and the diffuser direct light source is affixed behind the diffuser element in the direction toward the internal cavity within the display housing.

7. The display case of claim 6 , wherein in the scatter state, the diffuser element scatters light provided by the diffuser direct light source to illuminate the display screen.

8. The display case of claim 1 , wherein the diffuser element comprises a material that, in response to electrical stimulation, transitions from the transparent state to the scatter state at a rate of at least 60 Hz.

9. A display case for presenting computer-generated digital content overlaid on a view of tangible objects within the display case by way of a multi-layered transmissive display, the display case comprising: a display housing comprising an open face and an internal cavity within the display housing; a display screen fixably attached to the display housing to cover the open face, wherein the display screen alternates, based on a display rate, between an emissive state where the display screen filters light waves from a diffuser direct light source to display an emitted light image and an attenuating state where the display screen filters light waves from the internal cavity to display a transparency mask image; a diffuser element affixed to the display screen and located directly adjacent to the internal cavity and that diffuses light and alternates between a transparent state and a scatter state based on the display rate such that a digital overlay is superimposed on a view of the internal cavity; and wherein the diffuser direct light source is located behind the diffuser element within the internal cavity of the display housing and alternates, based on the display rate, between an on state wherein the diffuser direct light source illuminates the diffuser element and an off state wherein the diffuser direct light source is inactive.

10. The display case of claim 9 , wherein the diffuser element transitions between the transparent state and the scatter state such that: at a first point in time the display screen is in the emissive state, the diffuser direct light source is in the on state, and the diffuser element is in the scatter state; and at a second point in time the display screen is in the attenuating state, the diffuser direct light source is in the off state, and the diffuser element is in the transparent state.

11. The display case of claim 10 , wherein the display housing further comprises an opening whereby the internal cavity within the display housing is accessible.

12. The display case of claim 10 , further comprising an ambient light source aligned to project light within the internal cavity and that alternates, based on the display rate, between: a second on state wherein the ambient light source illuminates the display screen; and a second off state wherein the ambient light source is inactive.

13. The display case of claim 12 , wherein: at the first point in time the ambient light is in the second off state; and at the second point in time the ambient light source is in the second on state.

14. The display case of claim 13 , wherein the ambient light source is located inside the internal cavity within the display housing at a location affixed to a wall of the display housing adjacent to a bottom portion of the internal cavity.

15. The display case of claim 9 , wherein in the scatter state, the diffuser element scatters light provided by the diffuser direct light source to illuminate the display screen.

16. A method for displaying a digital content overlay for a tangible object displayed within a display case, the method comprising: providing an emitted light image for display by way of a display screen, wherein the display screen renders the emitted light image by filtering light emitted from a diffuser element scattering light provided by a diffuser direct light source while the display screen is in an emissive state, wherein the diffuser element is affixed to the display screen and is directly adjacent to an internal cavity located behind the display screen; providing a transparency mask image for display by way of the display screen, wherein the display screen renders the transparency mask image by filtering light from an ambient light source while the display screen is in an attenuating state; toggling the display screen, at a display rate, between the emissive state and the attenuating state; and alternating the diffuser element, based on the display rate, between a transparent state and a scatter state such that at a first point in time the diffuser element is in the transparent state and the display screen is in the attenuating state and at a second point in time the diffuser element is in the scatter state and the display screen is in the emissive state.

17. The method of claim 16 , wherein: the diffuser element is located behind the display screen; and further comprising illuminating the display screen by way of the ambient light source, wherein the ambient light source is located behind the diffuser element.

18. The method of claim 17 , further comprising illuminating the display screen by way of the diffuser element that scatters light, wherein the light is provided by a diffuser direct light source located behind the diffuser element.

19. The method of claim 18 , wherein: alternating comprises toggling, based on the display rate, between utilizing the ambient light source to illuminate the display screen at the first point in time and utilizing the diffuser direct light source by way of the diffuser element to illuminate the display screen at the second point in time; the display screen is a touchscreen that filters light from the ambient light source at the first point in time to display the transparency mask image; and the display screen filters light from the diffuser direct light source at the second point in time to display the emitted light image.

20. The method of claim 19 , further comprising synchronizing the display screen, the diffuser element, the diffuser direct light source, and the ambient light source based on the display rate such that: at the first point in time the display screen is in the attenuating state, the diffuser element is in the transparent state, the diffuser direct light source is off, and the ambient light source is on; and at the second point in time the display screen is in the emissive state, the diffuser element is in the scatter state, the diffuser direct light source is on, and the ambient light source is off.